{% extends "layout.html" %}
{% block nistsoftwarebutton %}
  <div class="grid-container margin-top-4">
  <div class="nist-page__region nist-page__region--content-top">

      <div
      data-layout-content-preview-placeholder-label="&quot;NIST Software Button&quot; block"
      class="nist-block">
          <a class="usa-button usa-button--accent-cool"
          href="https://www.nist.gov/services-resources/software">Software</a>
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{% endblock %}
{% block body %}
  <h1>FiPy: A Finite Volume PDE Solver Using Python</h1>
  <p><a class="reference external"
  href="documentation/glossary.html#term-fipy"><em
  class="xref">FiPy</em></a> is an object oriented, partial differential
  equation (PDE) solver,
  written in <a class="reference external"
  href="/cgi-bin/redirect.py?url=http://www.python.org/">Python</a>,
  based on a standard finite volume (FV) approach. The framework has been
  developed in the Materials Science and Engineering Division (<a class="reference external"
  href="http://www.nist.gov/mml/msed">MSED</a>) and Center
  for Theoretical and Computational Materials Science (<a class="reference
  external" href="http://www.ctcms.nist.gov/">CTCMS</a>), in the Material
  Measurement Laboratory (<a class="reference external"
  href="http://www.nist.gov/mml/">MML</a>) at the National Institute of
  Standards and Technology (<a class="reference external"
  href="http://www.nist.gov/">NIST</a>).</p>
  <p>The solution of coupled sets of PDEs is ubiquitous to the numerical
  simulation of science problems. Numerous PDE solvers exist, using a
  variety of languages and numerical approaches. Many are proprietary,
  expensive and difficult to customize. As a result, scientists spend
  considerable resources repeatedly developing limited tools for specific
  problems. Our approach, combining the FV method and <a class="reference
  external"
  href="/cgi-bin/redirect.py?url=http://www.python.org/">Python</a>,
  provides a tool that is extensible, powerful and freely available. A
  significant advantage to <a class="reference external"
  href="/cgi-bin/redirect.py?url=http://www.python.org/">Python</a>
  is the existing suite of tools for array calculations, sparse matrices
  and data rendering.</p>
  <p>The <a class="reference external"
  href="documentation/glossary.html#term-fipy"><em
  class="xref">FiPy</em></a> framework includes terms for transient
  diffusion,
  convection and standard sources, enabling the solution of arbitrary
  combinations of coupled elliptic, hyperbolic and parabolic PDEs.
  Currently implemented models include phase field <a class="reference
  external"
  href="documentation/references.html#boettingerreview-2002">[BoettingerReview:2002]</a>
  <a class="reference external"
  href="documentation/references.html#chenreview-2002">[ChenReview:2002]</a>
  <a class="reference external"
  href="documentation/references.html#mcfaddenreview-2002">[McFaddenReview:2002]</a>
  treatments of polycrystalline, dendritic, and electrochemical phase
  transformations as well as a level set treatment of the electrodeposition
  process <a class="reference external"
  href="documentation/references.html#nist-damascene-2001">[NIST:damascene:2001]</a>.</p>
  <p>
  <!-- Development & Quality Assurance Badges -->
  <a href="https://circleci.com/gh/usnistgov/fipy"><img src="https://img.shields.io/circleci/project/github/usnistgov/fipy/master.svg?label=Linux" alt="Linux status"></img></a>
  <a href="https://travis-ci.org/usnistgov/fipy"><img src="https://img.shields.io/travis/usnistgov/fipy/master.svg?label=macOS" alt="macOS status"></img></a>
  <a href="https://ci.appveyor.com/project/guyer/fipy"><img src="https://ci.appveyor.com/api/projects/status/github/usnistgov/fipy?branch=master&svg=true&failingText=Windows%20-%20failing&passingText=Windows%20-%20passing&pendingText=Windows%20-%20pending" alt="Windows status"></img></a>
  <br>
  <a href="https://github.com/usnistgov/fipy"><img src="https://img.shields.io/github/contributors/usnistgov/fipy.svg" alt="GitHub"></img></a>
  <a href="https://pypi.python.org/pypi/FiPy"><img src="https://img.shields.io/pypi/v/fipy.svg" alt="PyPi"></img></a>
  <a class="badge-align" href="https://www.codacy.com/app/tkphd/fipy?utm_source=github.com&amp;utm_medium=referral&amp;utm_content=usnistgov/fipy&amp;utm_campaign=Badge_Grade"><img src="https://api.codacy.com/project/badge/Grade/d02921bb54b14e88a1e2e1f5520133f4"/></a>
  <a href="https://anaconda.org/guyer/fipy"><img src="https://anaconda.org/conda-forge/fipy/badges/installer/conda.svg" alt="CondaForge"></img></a>
  <a href="https://mybinder.org/v2/gh/usnistgov/fipy/master?filepath=examples%2Findex.ipynb"><img src="https://mybinder.org/badge.svg" alt="Binder"></img></a>
  <br>
  <!-- Community Badges -->
  <a href="https://gitter.im/usnistgov/fipy"><img src="https://badges.gitter.im/usnistgov/fipy.svg" alt="gitter"></img></a>
  <a href="http://depsy.org/package/python/FiPy"><img src="http://depsy.org/api/package/pypi/FiPy/badge.svg" alt="Depsy"></img></a>
  <a href="https://www.openhub.net/p/fipy"><img src="https://www.openhub.net/p/fipy/widgets/project_thin_badge.gif" alt="OpenHub"></img></a>
  </p>
  <div class="admonition attention">
  <p class="first admonition-title">If you use FiPy in your research, please cite:
  <a href="_static/fipy.bib">(bibtex)</a>
  <a href="_static/fipy.ris">(endnote)</a>
  <a href="http://www.nist.gov/cgi-bin/get_pdf.cgi?pub_id=854461">(pdf)</a></p>
  <p>J. E. Guyer, D. Wheeler &amp; J. A. Warren,
  "FiPy: Partial Differential Equations with Python,"
  <em>Computing in Science &amp; Engineering</em> <strong>11</strong>(3) pp. 6&mdash;15 (2009),
  <a href="/cgi-bin/redirect.py?url=http://dx.doi.org/10.1109/MCSE.2009.52"><code>doi:10.1109/MCSE.2009.52</code></a>,
  <a href="/cgi-bin/redirect.py?url=http://www.ctcms.nist.gov/fipy"><code>http://www.ctcms.nist.gov/fipy</code></a></p>
  </div>
  <div class="admonition seealso">
  <p class="first admonition-title">Other sources of information:</p>
  <p>For questions not answered here, please check the 
  <a href="{{ pathto('documentation/MAIL') }}">mailing list</a>,
  open an issue on the
  <a href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy/issues">issue tracker</a>,
  or ask a question on 
  <a href="/cgi-bin/redirect.py?url=https://stackoverflow.com/questions/tagged/fipy">StackOverflow</a>.</p>
  <p>We encourage you to review the 
  <a href="https://www.mail-archive.com/fipy@nist.gov/">mailing list archive</a> 
  before posting a question.</p>
  </div>
 {% block tables %}
   <h2>Documentation</h2>
   <table class="contentstable" align="center"><tr>
     <td width="50%">
       <p class="biglink"><a class="biglink" href="{{ pathto('README') }}">About FiPy</a><br/>
          <span class="linkdescr">start here</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('INSTALLATION') }}">Installation</a><br/>
	  <span class="linkdescr">how to install FiPy on different platforms</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/USAGE') }}">FiPy Usage</a><br/>
          <span class="linkdescr">how to use FiPy</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('examples/README') }}">Examples</a><br/>
          <span class="linkdescr">examples of usage</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/FAQ') }}">FAQs</a><br/>
          <span class="linkdescr">frequently asked questions (with answers!)</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('LICENSE') }}">License</a><br/>
          <span class="linkdescr">terms of use</span></p>
     </td><td width="50%">
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/numerical/index') }}">Numerical Approach</a><br/>
          <span class="linkdescr">background on numerical solutions to PDEs</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/design') }}">FiPy Design</a><br/>
          <span class="linkdescr">FilosoPhy of FiPy</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/API') }}">FiPy API</a><br/>
          <span class="linkdescr">reference for Python programmers</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/CREDITS') }}">Credits</a><br/>
          <span class="linkdescr">significant contributors</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/PUBLICATIONS') }}">Publications</a><br/>
          <span class="linkdescr">papers and talks about (or using) FiPy</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('CHANGELOG') }}">Change Log</a><br/>
          <span class="linkdescr">history of updates</span></p>
     </td></tr>
   </table>

   <h2>Applications</h2>
   <table class="contentstable" align="center"><tr>
     <td width="50%">
       <p class="biglink"><a class="biglink" href="{{ 
       pathto('examples/levelSet/electroChem/README') }}">Superconformal
       Electrodeposition</a><br/>
          <span class="linkdescr">level set treatment of "Damascene" 
          electrodeposition</span></p>
     </td><td width="50%">
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/VKML')
       }}">Virtual Kinetics of Materials Laboratory</a><br/>
          <span class="linkdescr">interactive graphical examples from 
          Purdue University</span></p>
     </td></tr>
   </table>

   <h2 class="contentstablelink"><a href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy/releases">Download</a></h2>

   <h2 class="contentstablelink"><a href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy">FiPy@GitHub</a></h2>
   <table class="contentstable" align="center"><tr>
     <td width="50%">
       <p class="biglink"><a class="biglink" 
       href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy">Source Code</a></p>
       <p class="biglink"><a class="biglink" 
       href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy/issues">Reporting Bugs</a></p>
     </td><td width="50%">
       <p class="biglink"><a class="biglink" 
       href="/cgi-bin/redirect.py?url=https://github.com/usnistgov/fipy/wiki">wiki</a></p>
     </td></tr>
   </table>
   
   <h2>Indices and tables</h2>
   <table class="contentstable" align="center"><tr>
     <td width="50%">
       <p class="biglink"><a class="biglink" href="{{ pathto('py-modindex') }}">Global Module Index</a><br/>
          <span class="linkdescr">quick access to all modules</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('genindex') }}">General Index</a><br/>
          <span class="linkdescr">all functions, classes, terms</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/glossary') }}">Glossary</a><br/>
          <span class="linkdescr">the most important terms explained</span></p>
     </td><td width="50%">
       <p class="biglink"><a class="biglink" href="{{ pathto('search')
       }}">Search Page</a><br/>
          <span class="linkdescr">search this documentation</span></p>
       <p class="biglink"><a class="biglink" href="{{ pathto('documentation/contents') }}">Complete Table of Contents</a><br/>
          <span class="linkdescr">lists all sections and subsections</span></p>
       <p class="biglink"><a class="biglink" href="{{  pathto('documentation/references') }}">References</a><br/>
          <span class="linkdescr">lists of source materials</span></p>
     </td></tr>
   </table>
 {% endblock %}
{% endblock %}
